CN113487202B - Instrument relocation supervision method based on block chain management - Google Patents

Abstract

The invention relates to an instrument relocation supervision method based on block chain management, which comprises the following steps executed on an application platform based on a block chain: s100, operation of a first person in charge of the department of charge of relocation: s110, registering; s120, creating a main task; s140, sending a main task; s150, signing; s200, operation of a second person in charge of each execution department: s210, registering; s220, receiving and checking a main task; s230, executing a task; s270, ending the task; s280, signature; operation of the third person in charge of each execution department: s310, registering; s320, receiving and checking the subtasks; s330, executing a task; s350, ending the task; and S360, signing. The method of the invention can make the moving process of the instrument can be inquired on line in real time, and the timestamp and other data of the moving step can not be falsified, thus being safe and reliable and having higher working efficiency.

Description

Instrument relocation supervision method based on block chain management

Technical Field

The invention relates to the technical field of block chains, in particular to an instrument relocation supervision method based on block chain management.

Background

After the instrument produced by a factory is successfully signed, generally carrying out the operation of instrument relocation; in addition, the customer may also be involved in instrument relocation after purchase due to changes in the size or layout of the business. It is clear that ISO9000 is fixed, and the relocation of equipment is one of the important factors affecting the product quality and the 4M (man, machine, material, law) changes of the product, so that it is necessary to re-evaluate the test data before and after the relocation of the instrument. In addition, instrument relocation involves the cooperative operation of a plurality of departments, for example, an external communication department, a packaging department, a transportation department, an installation department, an acceptance department, overseas and overseas, and may involve a customs department, and each instrument relocation task may have random situations, for example, for the installation department, some instruments need to be transformed on site by water, electricity and gas, some instruments need to be transformed only by a circuit, and the situation is complex anyway. The general relocation management department makes a plan in advance and carries out task allocation through communication modes such as mails, office software, telephones and the like, and a special online instrument relocation task allocation method is not adopted, so that the progress of the whole relocation task is not convenient to know, the confirmation can be carried out only by departments one by one, the information is lagged, and the working efficiency is low.

In recent years, the blockchain technology is hot, and the blockchain is an integrated application of technologies such as distributed digital storage, point-to-point transmission, consensus mechanism, encryption algorithm and the like. In a narrow sense, the blockchain is a chain data structure which combines data blocks in a sequential connection manner according to a time sequence, and is a distributed account book which is guaranteed in a cryptographic manner and is not falsifiable and counterfeitable. Broadly speaking, the blockchain technique is a completely new distributed infrastructure and computing paradigm that utilizes blockchain data structures to verify and store data, utilizes distributed node consensus algorithms to generate and update data, utilizes cryptography to secure data transmission and access, and utilizes intelligent contracts to program and manipulate data. Compared with the traditional database technology, the block chain has 3 advantages: firstly, the data is not tamper-proof; secondly, maintaining the system collectively; and thirdly, the information is transparent to disclosure. Based on the understanding of the task flow of instrument relocation, and the combination of block chain technology, the inventor developed the method of the present invention.

Disclosure of Invention

In order to solve the above-mentioned deficiencies in the prior art, the present invention mainly aims to provide an instrument relocation supervision method based on block chain management.

The technical scheme for solving the problems is realized as follows:

an instrument relocation supervision method based on block chain management comprises the following steps executed on an application platform based on a block chain:

s100, operation of a first person in charge of the department of charge of relocation:

s110, registration: registering to obtain corresponding operation authority, generating first registration information, and uploading the first registration information to a personnel library of the bottom-layer platform;

s120, creating a main task: creating a main relocation task and generating main relocation task information, wherein the main relocation task information comprises a task number, a main task name, an old address, a main process and a new address, the main process is formed by connecting a plurality of main steps in parallel or in series, each main step also corresponds to an execution department, a second person in charge and a main step requirement, and the main relocation task information is uploaded to a task library of a bottom platform;

s140, sending a main task: sending the main task of relocation, the corresponding main step and the main step requirement to each second person in charge;

s150, signature: performing electronic signature, generating and uploading first flow information to a task library of a bottom platform, wherein the first flow information comprises a main task creator, main task creation time and main task sending time;

s200, operation of a second person in charge of each execution department:

s210, registration: registering to obtain corresponding operation authority, generating second registration information, and uploading the second registration information to a personnel library of the bottom platform based on the block chain;

s220, receiving and checking a main task: receiving a main relocation task, and checking the main relocation task, a corresponding main step and a main step requirement;

s230, executing a task: selecting and starting to execute at least one received main step;

s270, ending the task: ending at least one executing main step;

s280, signature: and carrying out electronic signature, and generating and uploading second transfer information to a task library of the bottom platform, wherein the second transfer information comprises a current second person in charge, the main step receiving time and the main step ending time.

Further, step S240 and step S250 may be optionally included after step S230: s240, creating a subtask: creating a relocation subtask according to a main step requirement in a relocation main task and generating relocation subtask information, wherein the relocation subtask information comprises a subtask number, a subtask name and a sub-process, the sub-process is formed by connecting a plurality of sub-steps in parallel or in series, each sub-step also corresponds to a third person in charge and a sub-step requirement in a current execution department, and the relocation subtask information is uploaded to a task library of a bottom-layer platform; s250, sending a subtask: and sending the moving subtasks, the corresponding substeps and the substep requirements to each third person in charge.

Further, the present invention further includes step S300: the operation of the third person in charge of each execution department comprises the following steps:

s310, registration: registering to obtain corresponding operation authority, generating third registration information, and uploading the third registration information to a personnel library of the bottom platform based on the block chain;

s320, receiving and checking subtasks: receiving a relocation subtask, and checking the relocation subtask and corresponding substep requirements;

s330, executing tasks: selecting and beginning to perform at least one received substep;

s350, ending the task: finishing at least one sub-step in execution, and simultaneously sending a reminding message that the current task is completed to a corresponding second responsible person;

s360, signature: and carrying out electronic signature, and generating and uploading third streaming information to a task library of the bottom platform, wherein the third streaming information comprises a current third person in charge, sub-step receiving time and sub-step ending time.

Further, the main task information of the moving in step S120 further includes a main task level, the sub task information of the moving in step S240 further includes a sub task level, and the second person in charge determines the sub task level and a corresponding third person in charge according to the main step requirement and the main task level.

Further, step S130 is further included after step S120, and the uploading device information: the equipment information comprises the equipment name and the equipment number of the equipment to be moved, the description of the position and the connection relation of each part and the photo of the position and the connection relation of each part before the movement, and the equipment information is uploaded to an equipment library of the bottom platform.

Further, step S260, uploading the first execution information, is also optionally included after step S230: the first execution information comprises a description of the main step situation and a corresponding photo, and the first execution information is uploaded to a task library of the bottom-layer platform.

Further, step S340 is optionally included after step S330, and the second execution information is uploaded: and the second execution information comprises a description of the completion condition of the sub-step and a corresponding photo, and is uploaded to a task library of the bottom-layer platform.

Further, the device information in step S130 further includes test data before the relocation, and the first execution information in step S260 or the second execution information in step S340 further includes test data after the relocation.

Further, the device information in step S130 further includes an acceptance criterion of the test data after the relocation.

Further, in step S100, any location after step S110, and in step S200, any location after step S210, and in step S300, any location after step S310, optionally perform the steps of querying: and inquiring the generated relocation main task according to the key words, and selectively checking corresponding relocation main task information, relocation subtask information, equipment information, all circulation information, first execution information and second execution information.

The invention has the beneficial effects that:

(1) The invention can know the progress of the whole main task and the sub task on line at the first time, and because of the block chain technology, the timestamp and other data of each moving step can not be falsified, the invention is safe and reliable, the moving state of each step of the whole flow can be inquired immediately, and the working efficiency is higher;

(2) The generation of the first circulation information, the second circulation information and the third circulation information forms a completed data tracing chain, so that the migration process is really recorded, people are responsible, and the tracing is convenient;

(3) The test data before the relocation, the acceptance standard of the test data after the relocation and the uploading of the test data after the relocation enable the test data of different relocation grades to be correspondingly confirmed and evaluated, and the consistency of the test data before and after the relocation is effectively guaranteed.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1: a flow chart of the steps of the supervision method of the invention;

FIG. 2: the module connection diagram of the system for realizing the method of the invention is shown.

Description of the reference numerals

100 bottom layer platform

110 first communication module

120 task library

130 personnel storeroom

140 equipment library

200 application platform

210 first user operation interface

211 first registration module

212 first task creation Module

213 first sending module

214 first upload module

215 first query module

220 second user operation interface

221 second registration module

222 first task receiving module

223 second task creation module

224 second sending module

225 second upload module

226 first closing module

227 second query module

230 third user interface

231 third registration module

232 second task receiving module

233 second shutdown module

234 third query Module

240 a second communication module.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Referring to fig. 1 to 2, the instrument relocation supervision method based on blockchain management according to the present invention includes the following steps executed on a blockchain-based application platform 200:

s100, operation of a first person in charge of the department of charge of relocation:

s110, registration: registering to obtain corresponding operation authority, generating first registration information, and uploading the first registration information to the personnel library 130 of the bottom-layer platform 100;

s120, creating a main task: creating a main task to be moved and generating main task information to be moved, wherein the main task information to be moved comprises a main task number, a main task name, a main task grade, an old address, a main process and a new address, the main process is formed by connecting a plurality of main steps in parallel or in series, each main step also corresponds to the requirements of an execution department, a second person in charge and a main step, and the main task information to be moved is uploaded to a task library 120 of a bottom platform 100;

s130, uploading equipment information: the device information includes the device name of the device to be moved, the device number, the test data before the movement, and the acceptance standard of the test data after the movement (determined according to the movement level, the device movement easily causes the change of the device generated data, has an important influence on the consistency of the measurement of the product, and the quality of the product cannot be influenced unless the change is within a certain range before and after the movement, so the acceptance standard of the test data after the movement needs to be established), the description of the position and the connection relationship of each component, and the photo of the position and the connection relationship of each component before the movement, and the device information is uploaded to the device library 140 of the underlying platform 100;

s140, sending a main task: sending a relocation main task, a corresponding main step and a main step requirement to each second responsible person, wherein the relocation main task is sent to enable the second responsible person to know the content of the whole main task, and the main step requirement are sent to enable the second responsible person to clearly determine the content and the requirement of the second responsible person;

s150, signature: performing electronic signature, and generating and uploading first flow information to the task library 120 of the bottom platform 100, wherein the first flow information comprises a main task creator (namely a first responsible person), main task creation time and main task sending time;

s200, operation of a second person in charge of each execution department:

s210, registration: registering to obtain corresponding operation authority and generating second registration information, and uploading the second registration information to the personnel library 130 of the bottom-layer platform 100 based on the block chain;

s220, receiving and checking tasks: receiving a main task to be moved, and checking the main task to be moved, a corresponding main step and a main step requirement;

s230, executing a task: selecting and starting to execute at least one received main step;

s240, creating a subtask: creating a relocation subtask according to a main step requirement in the relocation main task and generating relocation subtask information (i.e. decomposing the relocation main task), wherein the relocation subtask information comprises a subtask number, a subtask name, a subtask level and a sub-process, the sub-process is formed by connecting a plurality of sub-steps in parallel or in series, and each sub-step also corresponds to a third person in charge and a sub-step requirement in the current execution department and uploads the relocation subtask information to a task library 120 of the bottom-layer platform 100; the second responsible person determines the subtask level and a corresponding third responsible person according to the main step requirement and the main task level;

s250, sending a subtask: sending a relocation subtask, a corresponding substep and a substep requirement to each third responsible person, wherein the relocation subtask is sent to enable the third responsible person to know the content of the whole subtask, and the substep requirement are sent to enable the third responsible person to clearly determine the content and the requirement of the third responsible person;

s260, uploading first execution information: the first execution information includes the test data after the relocation, the description of the main step situation and the corresponding photo, the first execution information is uploaded to the task library 120 of the bottom platform 100, and whether the test data after the relocation is qualified is judged according to the acceptance criteria of the test data in the device information;

s270, ending the task: ending at least one executing main step;

s280, signature: performing electronic signature, generating and uploading second transfer information to the task library 120 of the bottom platform 100, wherein the second transfer information comprises a current second person in charge, main step receiving time and main step ending time;

s300, operation of a third person in charge of each execution department:

s310, registration: registering to obtain corresponding operation authority, generating third registration information, and uploading the third registration information to the personnel library 130 of the bottom-layer platform 100 based on the block chain;

s320, receiving and checking tasks: receiving a relocation subtask, and checking the relocation subtask and a corresponding substep requirement;

s330, executing tasks: selecting and beginning to perform at least one received substep;

s340, uploading second execution information: the second execution information includes test data after the relocation, a description of a sub-step completion condition and a corresponding photo, and the second execution information is uploaded to the task library 120 of the bottom-layer platform 100;

s350, ending the task: finishing at least one executing sub-step, and simultaneously sending the reminding information that the current task is finished to the corresponding second responsible person so that the second responsible person can master the progress of each third responsible person managed by the second responsible person in time;

s360, signature: and performing electronic signature, and generating and uploading third streaming information to the task library 120 of the bottom platform 100, wherein the third streaming information comprises the current third person in charge, the sub-step receiving time and the sub-step ending time.

Wherein, the steps of inquiring (S160, S290 and S370) can be selectively executed according to actual needs at any position after the completion of the registration of each main step (namely, any position after the step S110 in the step S100; any position after the step S210 in the step S200; and any position after the step S310 in the step S300): the generated main relocation task is queried according to the keywords, and corresponding main relocation task information, sub relocation task information, device information, all circulation information, first execution information and second execution information are optionally checked, that is, after each registered person successfully registers, the generated main relocation task and corresponding device information, circulation information and other details can be queried at any time.

The above-mentioned method for supervising instrument relocation based on blockchain management may be implemented by using an instrument relocation supervision system based on blockchain management, which includes an underlying platform 100 established based on blockchain and a plurality of application platforms 200 used in parallel and established based on blockchain.

The underlying platform 100 includes a first communication module 110, a task library 120, a personnel library 130, and an equipment library 140, the underlying platform 100 may be a server based on the blockchain technology, or may be a computer host based on the blockchain technology, but not limited thereto, as long as the function of encrypted storage can be implemented, where:

a first communication module 110, configured to implement data communication, preferably a wireless communication module, such as a GPRS wireless communication module;

the task library 120 is used for storing the task information successfully created;

the personnel library 130 is used for storing personnel information which is successfully registered, wherein the personnel information comprises departments, job numbers, names, levels, contact ways and the like;

the equipment library 140 is used for storing equipment information of the equipment to be moved;

the application platform 200 includes a second communication module 240, a first user operation interface 210, a second user operation interface 220, and a third user operation interface 230, the application platform 200 may be a computer host based on the block chain technology, and may also be an intelligent mobile device based on the block chain technology, such as a mobile phone, a tablet, and the like, where:

a second communication module 240 for implementing data communication, preferably a wireless communication module, such as a GPRS wireless communication module;

the first user operation interface 210 is provided with a first registration module 211, a first task creation module 212, a first sending module 213, a first uploading module 214, and a first query module 215, wherein:

a first registration module 211, configured to register to obtain an operation authority of the first user operation interface 210, generate first registration information, and generally register by a general responsible person (a first responsible person) of the moving authority (corresponding to step S110);

a first task creating module 212, configured to create a relocation main task, generate and upload relocation main task information (corresponding to step S120);

a first uploading module 214, configured to upload device information to the device library 140 of the underlying platform 100 (corresponding to step S130);

a first sending module 213, configured to send the relocation main task, the corresponding main step and the main step requirement (corresponding to step S140), and to sign (corresponding to step S150) to each second person in charge of the current relocation main task;

a first query module 215, configured to query the generated migration main task by the first person in charge according to the keyword (corresponding to step S160);

the second user operation interface 220 is provided with a second registration module 221, a first task receiving module 222, a second task creating module 223, a second sending module 224, a second uploading module 225, a first closing module 226 and a second querying module 227, wherein:

a second registration module 221, configured to register to obtain an operation authority of the second user operation interface 220 and generate second registration information, where the second registration information is generally registered by a general responsible person of each execution department (corresponding to step S210);

a first task receiving module 222, configured to receive and view the main task (corresponding to step S220);

a second task creating module 223 for creating a subtask (corresponding to step S240);

a second sending module 224, configured to send the move subtask, the corresponding sub-step and the sub-step requirement to each third person in charge of the current move subtask (corresponding to step S250);

a second uploading module 225, configured to upload the first execution information (corresponding to step S260);

a first closing module 226, configured to end the task and sign (corresponding to steps S270 and S280, respectively);

a second query module 227, configured to query, by the second person in charge, the generated main relocation task according to the keyword (corresponding to step S290);

the third user operation interface 230 is provided with a third registration module 231, a second task receiving module 232, a second closing module 233 and a third query module 234, wherein:

a third registration module 231, configured to register to obtain an operation authority of the third user operation interface 230 and generate third registration information, and generally register by an intra-department member of each execution department (corresponding to step S310);

a second task receiving module 232, configured to receive and view the subtasks (corresponding to step S320);

a second closing module 233, configured to end the task and sign (corresponding to steps S350 and S360, respectively);

the third query module 234 is configured to query the generated relocation main task by the third person in charge according to the keyword (corresponding to step S370).

The foregoing description is only of the preferred embodiments of the present invention, and it should be understood that the described embodiments are only a few, and not all, of the embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Claims (8)

1. An instrument relocation supervision method based on blockchain management, characterized by comprising the following steps performed on a blockchain based application platform (200):

s100, operation of a first person in charge of the department of charge of relocation:

s110, registration: registering to obtain corresponding operation authority, generating first registration information, and uploading the first registration information to a personnel library (130) of the bottom-layer platform (100);

s120, creating a main task: creating a main relocation task and generating main relocation task information, wherein the main relocation task information comprises a task number, a main task name, an old address, a main process and a new address, the main process is formed by connecting a plurality of main steps in parallel or in series, each main step also corresponds to an execution department, a second person in charge and a main step requirement, and the main relocation task information is uploaded to a task library (120) of a bottom platform (100);

s140, sending a main task: sending the main task of relocation, the corresponding main step and the main step requirement to each second person in charge;

s150, signature: performing electronic signature, and generating and uploading first flow information to a task library (120) of a bottom platform (100), wherein the first flow information comprises a main task creator, main task creation time and main task sending time;

s200, operation of a second person in charge of each execution department:

s210, registration: registering to obtain corresponding operation authority, generating second registration information, and uploading the second registration information to a personnel library (130) of the underlying platform (100) based on the block chain;

s220, receiving and checking a main task: receiving a main task to be moved, and checking the main task to be moved, a corresponding main step and a main step requirement;

s230, executing a task: selecting and starting to execute at least one received main step;

s270, ending the task: ending at least one executing main step;

s280, signature: performing electronic signature, generating and uploading second transfer information to a task library (120) of the bottom platform (100), wherein the second transfer information comprises a current second person in charge, main step receiving time and main step ending time;

s300: the operation of the third person in charge of each execution department comprises the following steps:

s310, registration: registering to obtain corresponding operation authority, generating third registration information, and uploading the third registration information to a personnel library (130) of the underlying platform (100) based on the block chain;

s320, receiving and checking subtasks: receiving a relocation subtask, and checking the relocation subtask and a corresponding substep requirement;

s330, executing tasks: selecting and beginning to perform at least one received substep;

s350, ending the task: finishing at least one executing sub-step, and simultaneously sending a reminding message that the current task is finished to a corresponding second responsible person;

s360, signature: carrying out electronic signature, generating and uploading third streaming information to a task library (120) of the bottom platform (100), wherein the third streaming information comprises a current third person in charge, sub-step receiving time and sub-step ending time

In step S100, at any location after step S110, an

In step S200, at any location after step S210, an

In step S300, at any position after step S310, the querying step is optionally performed: and inquiring the generated main relocation task according to the key words, and selectively checking corresponding main relocation task information, sub relocation task information, equipment information, all circulation information, first execution information and second execution information.

2. The method for instrumental relocation management according to claim 1, further comprising step S240 and step S250 after step S230:

s240, creating a subtask:

creating a relocation subtask according to a main step requirement in the relocation main task and generating relocation subtask information, wherein the relocation subtask information comprises a subtask number, a subtask name and a subprocess, the subprocess is formed by connecting a plurality of substeps in parallel or in series, each substep also corresponds to a third person in charge and a substep requirement in the current execution department, and the relocation subtask information is uploaded to a task library (120) of the bottom platform (100);

s250, sending a subtask: and sending the relocation subtasks, the corresponding substeps and the substep requirements to each third person in charge.

3. The method for supervising instrument relocation based on blockchain management as claimed in claim 2, wherein the relocation main task information in step S120 further includes a main task level, the relocation subtask information in step S240 further includes a subtask level, and the second person in charge determines the subtask level and a corresponding third person in charge according to the main step requirement and the main task level.

4. The instrument relocation supervision method according to claim 3, wherein step S120 is followed by step S130 of uploading device information: the equipment information comprises the equipment name and the equipment number of the equipment to be moved, the description of the position and the connection relation of each part and the photo of the position and the connection relation of each part before the movement, and the equipment information is uploaded to an equipment library (140) of the bottom platform (100).

5. The instrument relocation supervision method according to claim 4, further comprising step S260 after step S230, wherein the first execution information is uploaded: the first execution information comprises a description of the main step situation and a corresponding photo, and the first execution information is uploaded to a task library (120) of the underlying platform (100).

6. The instrument relocation supervision method according to claim 5, further comprising step S340 after step S330, optionally uploading second execution information: the second execution information comprises a description of the completion condition of the sub-step and a corresponding photo, and the second execution information is uploaded to a task library (120) of the underlying platform (100).

7. The method for supervising instrument relocation based on blockchain management as claimed in claim 6, wherein the equipment information in step S130 further includes test data before relocation, and the first execution information in step S260 or the second execution information in step S340 further includes test data after relocation.

8. The method for instrumental relocation management according to claim 7, wherein the device information in step S130 further includes acceptance criteria of the test data after relocation.

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